A genetic evidence of chromosomal fragment from bridge parent existing in substitution lines between two common wheat varieties

文献类型: 外文期刊

第一作者: Zhao Pei

作者: Zhao Pei;Wang Ke;Lin Zhi-shan;Liu Hui-yun;Li Xin;Du Li-pu;Ye Xing-guo;Yan Yue-ming

作者机构:

关键词: wheat;intracultivaral chromosome substitution lines;agronomic traits;high molecular weight glutenin subunits (HMW-GS);molecular markers

期刊名称:JOURNAL OF INTEGRATIVE AGRICULTURE ( 影响因子:2.848; 五年影响因子:2.979 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Locating of important agronomic genes onto chromosome is helpful for efficient development of new wheat varieties. Wheat chromosome substitution lines between two varieties have been widely used for locating genes because of their distinctive advantages in genetic analysis, compared with the aneuploid genetic materials. Apart from the substituted chromosome, the other chromosomes between the substitution lines and their recipient parent should be identical, which eases the gene locating practice. In this study, a set of chromosome substitution lines with cv. Wichita (WI) as the recipient parent and cv. Cheyenne (CNN) as the donor parent were studied for the composition of high molecular weight glutenin subunits (HMW-GS) as well as a range of agronomic important traits. Results revealed that the substitution lines of WI(CNN5D), WI(CNN6A) and WI(CNN7B) had higher plant heights than the two parents of WI and CNN, and WI(CNN3D) had later maturity than the parents. By sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) analysis, a substitution line WI(CNN5B) was found to contain different HMW-GS patterns from its two parents, in which 1By9 was replaced by 1By8 on chromosome 1BL. Simple sequence repeat (SSR) analysis confirmed that the variation on 1BL in WI(CNN5B) was originated from Chinese Spring (CS). It is concluded that chromosomal fragments from bridge material and donor parent were quite often retained in intracultivaral chromosome substitution lines except the substituting chromosomes.

分类号: S

  • 相关文献

[1]Genetic evidence of local adaptation of wheat yellow rust (Puccinia striiformis f. sp tritici) within France. Duan, X,Leconte, M,Hovmoller, MS,De Vallavieille-Pope, C.

[2]New molecular markers and cytogenetic probes enable chromosome identification of wheat-Thinopyrum intermedium introgression lines for improving protein and gluten contents. Wang, Hongjin,Lang, Tao,Li, Jianbo,La, Shixiao,Yang, Zujun,Yang, Ennian.

[3]Molecular and Cytogenetic Characterization of New Wheat-Dasypyrum breviaristatum Derivatives with Post-Harvest Re-Growth Habit. Li, Guangrong,Li, Donghai,Gao, Dan,Zhang, Jie,Yang, Zujun,Yang, Ennian. 2015

[4]Quantitative trait loci mapping for yield and its components by using two immortalized populations of a heterotic hybrid in Gossypium hirsutum L.. Liu, Renzhong,Wang, Baohua,Guo, Wangzhen,Qin, Yongsheng,Zhang, Yuanming,Zhang, Tianzhen,Liu, Renzhong,Wang, Liguo. 2012

[5]Genetic discovery for oil production and quality in sesame. Zhang, Yanxin,Wang, Linhai,Li, Donghua,Zhu, Xiaodong,Zhu, Xiaofeng,Gao, Yuan,Zhang, Xiurong,Liu, Kunyan,Feng, Qi,Zhao, Yan,Zhao, Qiang,Li, Wenjun,Fan, Danlin,Lu, Yiqi,Zhou, Congcong,Zhu, Chuanrang,Tian, Qilin,Wen, Ziruo,Weng, Qijun,Han, Bin,Huang, Xuehui,Zhang, Xianmei,Liu, Lifeng,Tang, Xiumei,Zhong, Ruichun.

[6]Identification of interspecific heterotic loci associated with agronomic traits in rice introgression lines carrying genomic fragments of Oryza glaberrima. Nassirou, Tondi Yacouba,He, Wenchuang,Chen, Caijin,Nsabiyumva, Athanase,Dong, Xilong,Yin, Yilong,Rao, Quanqin,Zhou, Wei,Shi, Han,Zhao, Wubin,Jin, Deming,Nevame, Adedze Y. M..

[7]Phenotypic characterization and genetic dissection of nine agronomic traits in Tokachi nagaha and its derived cultivars in soybean (Glycine max (L.) Merr.). Liu, Zhangxiong,Li, Huihui,Li, Yinghui,Guan, Rongxia,Guo, Yong,Chang, Ruzhen,Qiu, Li-Juan,Fan, Xuhong,Wang, Shuming,Huang, Wen,Yang, Jiyu,Wen, Zixiang,Wang, Dechun,Chen, Pengyin.

[8]Effects of the Vrn-D1b allele associated with facultative growth habit on agronomic traits in common wheat. Meng, Ling-zhi,Liu, Hong-wei,Yang, Li,Li, Hong-jie,Zhang, Hong-jun,Zhou, Yang,Mai, Chun-yan,Yu, Li-qiang.

[9]Characterization and mapping of novel chlorophyll deficient mutant genes in durum wheat. Li, Ning,Jia, Jizeng,Xia, Chuan,Liu, Xu,Kong, Xiuying.

[10]Evaluation of and selection criteria for drought resistance in Chinese semiwinter rapeseed varieties at different developmental stages. Huang, Qian,Zhao, Yongguo,Liu, Chunqing,Zou, Xiling,Cheng, Yong,Fu, Guiping,Xu, Jingsong,Zhang, Xuekun,Lu, Guangyuan.

[11]QTL mapping for agronomic traits using multi-parent advanced generation inter-cross (MAGIC) populations derived from diverse elite indica rice lines. Meng, Lijun,Zhao, Xiangqian,Ponce, Kimberly,Ye, Guoyou,Leung, Hei,Meng, Lijun.

[12]The effect of waterlogging on yield and seed quality at the early flowering stage in Brassica napus L.. Xu, Mingyue,Ma, Haiqing,Zeng, Liu,Cheng, Yong,Lu, Guangyuan,Xu, Jinsong,Zhang, Xuekun,Zou, Xiling,Ma, Haiqing.

[13]Utilization of UPLC/Q-TOF-MS-Based Metabolomics and AFLP-Based Marker-Assisted Selection to Facilitate/Assist Conventional Breeding of Polygala tenuifolia. Li, Juan,Wang, Dan-Dan,Bai, Lu,Pu, Ya-Jie,Qin, Xue-Mei,Zhang, Fu-Sheng,Wang, Dan-Dan,Bai, Lu,Pu, Ya-Jie,Xu, Xiao-Shuang,Peng, Bing,Tian, Hong-Ling,Ma, Cun-Gen. 2017

[14]Descriptive statistics and correlation analysis of agronomic traits in a maize recombinant inbred line population. Zhang, H. M.,Hui, G. Q.,Luo, Q.,Liu, X. H.,Sun, Y.,Zhang, H. M.,Hui, G. Q.,Luo, Q.,Sun, Y.. 2014

[15]Evaluation of agronomic and physiological traits associated with high temperature stress tolerance in the winter wheat cultivars. Cao, Xinyou,Cheng, Dungong,Wang, Canguo,Liu, Aifeng,Song, Jianming,Li, Haosheng,Zhao, Zhendong,Liu, Jianjun,Mondal, S.. 2015

[16]Amplified Fragment Length Polymorphism Markers and Agronomic Traits Analysis Provide Strategies for Improvement of Bitter Gourd (Momordica charantia L.). Yang, Yan,Zhan, Yuanfeng,Liu, Weixia,Sun, Jihua. 2010

[17]Field evaluation of an Amaranthus genetic resource collection in China. Wu, HX,Sun, M,Yue, SX,Sun, HL,Cai, Y,Huang, RH,Brenner, D,Corke, H. 2000

[18]Genome-wide association studies dissect the genetic networks underlying agronomical traits in soybean. Fang, Chao,Ma, Yanming,Liu, Zhi,Wang, Zheng,Yang, Rui,Zhang, Min,Pan, Yi,Zhou, Guoan,Shen, Yanting,Liu, Shulin,Liu, Tengfei,Zhang, Jixiang,Zhu, Baoge,Tian, Zhixi,Wu, Shiwen,Yu, Hong,Qin, Hao,Yuan, Jia,Li, Jiayang,Wang, Guodong,Hu, Guanghui,Zhou, Zhengkui,Ren, Haixiang,Wang, Yanping,Du, Weiguang,Han, Dezhi,Yan, Hongrui,Yuan, Xiaohui,Kong, Fanjiang,Liu, Baohui,Zhang, Zhiwu,Fang, Chao,Liu, Zhi,Shen, Yanting,Liu, Shulin,Liu, Tengfei,Zhang, Jixiang,Wang, Guodong,Tian, Zhixi. 2017

[19]A high density genetic map and QTL for agronomic and yield traits in Foxtail millet [Setaria italica (L.) P. Beauv.]. Fang, Xiaomei,Wang, Xiaoqin,Liu, Rui,Liu, Xueying,Li, Man,Huang, Mengzhu,Zhang, Zhengsheng,Dong, Kongjun,Liu, Tianpeng,He, Jihong,Ren, Ruiyu,Zhang, Lei,Yang, Tianyu. 2016

[20]Genome-Wide Association Study Identifying Candidate Genes Influencing Important Agronomic Traits of Flax (Linum usitatissimum L.)Using SLAF-seq. Xie, Dongwei,Dai, Zhigang,Yang, Zemao,Tang, Qing,Su, Jianguang,Xie, Dongwei,Zhao, Debao,Yang, Xue,Zhang, Liguo,Sun, Jian. 2018

作者其他论文 更多>>

微信小程序